import collections
import copy
import functools
import logging
import numbers
import re
from abc import ABC, abstractmethod
from typing import Any, Callable, Collection, Dict, Mapping, Optional, Tuple, Union

import h5py
import humanfriendly
import kaldiio
import numpy as np
import torch
from torch.utils.data.dataset import Dataset
from typeguard import typechecked

from espnet2.fileio.multi_sound_scp import MultiSoundScpReader
from espnet2.fileio.npy_scp import NpyScpReader
from espnet2.fileio.rand_gen_dataset import (
    FloatRandomGenerateDataset,
    IntRandomGenerateDataset,
)
from espnet2.fileio.read_text import (
    RandomTextReader,
    load_num_sequence_text,
    read_2columns_text,
    read_label,
)
from espnet2.fileio.rttm import RttmReader
from espnet2.fileio.score_scp import SingingScoreReader
from espnet2.fileio.sound_scp import SoundScpReader
from espnet2.utils.sized_dict import SizedDict


class AdapterForSoundScpReader(collections.abc.Mapping):
    @typechecked
    def __init__(self, loader, dtype=None, allow_multi_rates=False):
        self.loader = loader
        self.dtype = dtype
        self.rate = None
        self.allow_multi_rates = allow_multi_rates

    def keys(self):
        return self.loader.keys()

    def __len__(self):
        return len(self.loader)

    def __iter__(self):
        return iter(self.loader)

    def __getitem__(self, key: str) -> np.ndarray:
        retval = self.loader[key]

        if isinstance(retval, tuple):
            assert len(retval) == 2, len(retval)
            if isinstance(retval[0], int) and isinstance(retval[1], np.ndarray):
                # sound scp case
                rate, array = retval
            elif isinstance(retval[1], int) and isinstance(retval[0], np.ndarray):
                # Extended ark format case
                array, rate = retval
            else:
                raise RuntimeError(
                    f"Unexpected type: {type(retval[0])}, {type(retval[1])}"
                )

            if not self.allow_multi_rates and (
                self.rate is not None and self.rate != rate
            ):
                raise RuntimeError(
                    f"Sampling rates are mismatched: {self.rate} != {rate}"
                )
            self.rate = rate
            # Multichannel wave fie
            # array: (NSample, Channel) or (Nsample)
            if self.dtype is not None:
                array = array.astype(self.dtype)

        else:
            # Normal ark case
            assert isinstance(retval, np.ndarray), type(retval)
            array = retval
            if self.dtype is not None:
                array = array.astype(self.dtype)

        assert isinstance(array, np.ndarray), type(array)
        return array


class H5FileWrapper:
    def __init__(self, path: str):
        self.path = path
        self.h5_file = h5py.File(path, "r")

    def __repr__(self) -> str:
        return str(self.h5_file)

    def __len__(self) -> int:
        return len(self.h5_file)

    def __iter__(self):
        return iter(self.h5_file)

    def __getitem__(self, key) -> np.ndarray:
        value = self.h5_file[key]
        return value[()]


class AdapterForSingingScoreScpReader(collections.abc.Mapping):
    @typechecked
    def __init__(self, loader):
        self.loader = loader

    def keys(self):
        return self.loader.keys()

    def __len__(self):
        return len(self.loader)

    def __iter__(self):
        return iter(self.loader)

    def __getitem__(self, key: str) -> np.ndarray:
        retval = self.loader[key]
        assert (
            len(retval) == 3
            and isinstance(retval["tempo"], int)
            and isinstance(retval["note"], list)
        )
        tempo = retval["tempo"]

        return tempo, retval["note"]


class AdapterForLabelScpReader(collections.abc.Mapping):
    @typechecked
    def __init__(self, loader):
        self.loader = loader

    def keys(self):
        return self.loader.keys()

    def __len__(self):
        return len(self.loader)

    def __iter__(self):
        return iter(self.loader)

    def __getitem__(self, key: str) -> np.ndarray:
        retval = self.loader[key]

        assert isinstance(retval, list)
        seq_len = len(retval)
        sample_time = np.zeros((seq_len, 2))
        sample_label = []
        for i in range(seq_len):
            sample_time[i, 0] = np.float32(retval[i][0])
            sample_time[i, 1] = np.float32(retval[i][1])
            sample_label.append(retval[i][2])

        assert isinstance(sample_time, np.ndarray) and isinstance(sample_label, list)
        return sample_time, sample_label


def sound_loader(path, float_dtype=None, multi_columns=False, allow_multi_rates=False):
    # The file is as follows:
    #   utterance_id_A /some/where/a.wav
    #   utterance_id_B /some/where/a.flac

    # NOTE(kamo): SoundScpReader doesn't support pipe-fashion
    # like Kaldi e.g. "cat a.wav |".
    # NOTE(kamo): The audio signal is normalized to [-1,1] range.
    loader = SoundScpReader(
        path, always_2d=False, dtype=float_dtype, multi_columns=multi_columns
    )

    # SoundScpReader.__getitem__() returns Tuple[int, ndarray],
    # but ndarray is desired, so Adapter class is inserted here
    return AdapterForSoundScpReader(loader, allow_multi_rates=allow_multi_rates)


def multi_columns_sound_loader(path, float_dtype=None, allow_multi_rates=False):
    return sound_loader(
        path, float_dtype, multi_columns=True, allow_multi_rates=allow_multi_rates
    )


def variable_columns_sound_loader(path, float_dtype=None, allow_multi_rates=False):
    # The file is as follows:
    #   utterance_id_A /some/where/a1.wav /some/where/a2.wav /some/where/a3.wav
    #   utterance_id_B /some/where/b1.flac /some/where/b2.flac

    # NOTE(wangyou): SoundScpReader doesn't support pipe-fashion
    # like Kaldi e.g. "cat a.wav |".
    # NOTE(wangyou): The audio signal is normalized to [-1,1] range.
    loader = MultiSoundScpReader(path, always_2d=False, dtype=float_dtype, stack_axis=0)
    return AdapterForSoundScpReader(loader, allow_multi_rates=allow_multi_rates)


def score_loader(path):
    loader = SingingScoreReader(fname=path)
    return AdapterForSingingScoreScpReader(loader)


def label_loader(path):
    loader = read_label(path)
    return AdapterForLabelScpReader(loader)


def kaldi_loader(
    path, float_dtype=None, max_cache_fd: int = 0, allow_multi_rates=False
):
    loader = kaldiio.load_scp(path, max_cache_fd=max_cache_fd)
    return AdapterForSoundScpReader(
        loader, float_dtype, allow_multi_rates=allow_multi_rates
    )


def rand_int_loader(filepath, loader_type):
    # e.g. rand_int_3_10
    try:
        low, high = map(int, loader_type[len("rand_int_") :].split("_"))
    except ValueError:
        raise RuntimeError(f"e.g rand_int_3_10: but got {loader_type}")
    return IntRandomGenerateDataset(filepath, low, high)


DATA_TYPES = {
    "sound": dict(
        func=sound_loader,
        kwargs=["float_dtype", "allow_multi_rates"],
        help="Audio format types which supported by sndfile wav, flac, etc."
        "\n\n"
        "   utterance_id_a a.wav\n"
        "   utterance_id_b b.wav\n"
        "   ...",
    ),
    "multi_columns_sound": dict(
        func=multi_columns_sound_loader,
        kwargs=["float_dtype", "allow_multi_rates"],
        help="Enable multi columns wav.scp. "
        "The following text file can be loaded as multi channels audio data"
        "\n\n"
        "   utterance_id_a a.wav a2.wav\n"
        "   utterance_id_b b.wav b2.wav\n"
        "   ...",
    ),
    "variable_columns_sound": dict(
        func=variable_columns_sound_loader,
        kwargs=["float_dtype", "allow_multi_rates"],
        help="Loading variable numbers (columns) of audios in wav.scp. "
        "The following text file can be loaded as stacked audio data"
        "\n\n"
        "   utterance_id_a a1.wav a2.wav a3.wav\n"
        "   utterance_id_b b1.wav\n"
        "   utterance_id_c c1.wav c2.wav\n"
        "   ...\n\n"
        "Note that audios of different lengths will be right-padded with np.nan "
        "to the longest audio in the sample.\n"
        "A preprocessor must be used to remove these paddings.",
    ),
    "score": dict(
        func=score_loader,
        kwargs=[],
        help="Return text as is. The text contains tempo and note info.\n"
        "For each note, 'start' 'end' 'syllabel' 'midi' and 'phones' are included. "
        "\n\n"
        "   utterance_id_A tempo_a start_1 end_1 syllable_1 midi_1 phones_1 ...\n"
        "   utterance_id_B tempo_b start_1 end_1 syllable_1 midi_1 phones_1 ...\n"
        "   ...",
    ),
    "duration": dict(
        func=label_loader,
        kwargs=[],
        help="Return text as is. The text must be converted to ndarray "
        "by 'preprocess'."
        "\n\n"
        "   utterance_id_A start_1 end_1 phone_1 start_2 end_2 phone_2 ...\n"
        "   utterance_id_B start_1 end_1 phone_1 start_2 end_2 phone_2 ...\n"
        "   ...",
    ),
    "kaldi_ark": dict(
        func=kaldi_loader,
        kwargs=["max_cache_fd", "allow_multi_rates"],
        help="Kaldi-ark file type."
        "\n\n"
        "   utterance_id_A /some/where/a.ark:123\n"
        "   utterance_id_B /some/where/a.ark:456\n"
        "   ...",
    ),
    "npy": dict(
        func=NpyScpReader,
        kwargs=[],
        help="Npy file format."
        "\n\n"
        "   utterance_id_A /some/where/a.npy\n"
        "   utterance_id_B /some/where/b.npy\n"
        "   ...",
    ),
    "text_int": dict(
        func=functools.partial(load_num_sequence_text, loader_type="text_int"),
        kwargs=[],
        help="A text file in which is written a sequence of interger numbers "
        "separated by space."
        "\n\n"
        "   utterance_id_A 12 0 1 3\n"
        "   utterance_id_B 3 3 1\n"
        "   ...",
    ),
    "csv_int": dict(
        func=functools.partial(load_num_sequence_text, loader_type="csv_int"),
        kwargs=[],
        help="A text file in which is written a sequence of interger numbers "
        "separated by comma."
        "\n\n"
        "   utterance_id_A 100,80\n"
        "   utterance_id_B 143,80\n"
        "   ...",
    ),
    "text_float": dict(
        func=functools.partial(load_num_sequence_text, loader_type="text_float"),
        kwargs=[],
        help="A text file in which is written a sequence of float numbers "
        "separated by space."
        "\n\n"
        "   utterance_id_A 12. 3.1 3.4 4.4\n"
        "   utterance_id_B 3. 3.12 1.1\n"
        "   ...",
    ),
    "csv_float": dict(
        func=functools.partial(load_num_sequence_text, loader_type="csv_float"),
        kwargs=[],
        help="A text file in which is written a sequence of float numbers "
        "separated by comma."
        "\n\n"
        "   utterance_id_A 12.,3.1,3.4,4.4\n"
        "   utterance_id_B 3.,3.12,1.1\n"
        "   ...",
    ),
    "text": dict(
        func=read_2columns_text,
        kwargs=[],
        help="Return text as is. The text must be converted to ndarray "
        "by 'preprocess'."
        "\n\n"
        "   utterance_id_A hello world\n"
        "   utterance_id_B foo bar\n"
        "   ...",
    ),
    "random_text": dict(
        func=RandomTextReader,
        kwargs=[],
        help="Return text as is. The text must be converted to ndarray "
        "by 'preprocess'."
        "\n\n"
        "   hello world\n"
        "   foo bar\n"
        "   ...",
    ),
    "hdf5": dict(
        func=H5FileWrapper,
        kwargs=[],
        help="A HDF5 file which contains arrays at the first level or the second level."
        "   >>> f = h5py.File('file.h5')\n"
        "   >>> array1 = f['utterance_id_A']\n"
        "   >>> array2 = f['utterance_id_B']\n",
    ),
    "rand_float": dict(
        func=FloatRandomGenerateDataset,
        kwargs=[],
        help="Generate random float-ndarray which has the given shapes "
        "in the file."
        "\n\n"
        "   utterance_id_A 3,4\n"
        "   utterance_id_B 10,4\n"
        "   ...",
    ),
    "rand_int_\\d+_\\d+": dict(
        func=rand_int_loader,
        kwargs=["loader_type"],
        help="e.g. 'rand_int_0_10'. Generate random int-ndarray which has the given "
        "shapes in the path. "
        "Give the lower and upper value by the file type. e.g. "
        "rand_int_0_10 -> Generate integers from 0 to 10."
        "\n\n"
        "   utterance_id_A 3,4\n"
        "   utterance_id_B 10,4\n"
        "   ...",
    ),
    "rttm": dict(
        func=RttmReader,
        kwargs=[],
        help="rttm file loader, currently support for speaker diarization"
        "\n\n"
        "    SPEAKER file1 1 0 1023 <NA> <NA> spk1 <NA>"
        "    SPEAKER file1 2 4000 3023 <NA> <NA> spk2 <NA>"
        "    SPEAKER file1 3 500 4023 <NA> <NA> spk1 <NA>"
        "    END     file1 <NA> 4023 <NA> <NA> <NA> <NA>"
        "   ...",
    ),
}


class AbsDataset(Dataset, ABC):
    @abstractmethod
    def has_name(self, name) -> bool:
        raise NotImplementedError

    @abstractmethod
    def names(self) -> Tuple[str, ...]:
        raise NotImplementedError

    @abstractmethod
    def __getitem__(self, uid) -> Tuple[Any, Dict[str, np.ndarray]]:
        raise NotImplementedError


class ESPnetDataset(AbsDataset):
    """Pytorch Dataset class for ESPNet.

    Examples:
        >>> dataset = ESPnetDataset([('wav.scp', 'input', 'sound'),
        ...                          ('token_int', 'output', 'text_int')],
        ...                         )
        ... uttid, data = dataset['uttid']
        {'input': per_utt_array, 'output': per_utt_array}
    """

    @typechecked
    def __init__(
        self,
        path_name_type_list: Collection[Tuple[str, str, str]],
        preprocess: Optional[
            Callable[[str, Dict[str, np.ndarray]], Dict[str, np.ndarray]]
        ] = None,
        float_dtype: str = "float32",
        int_dtype: str = "long",
        max_cache_size: Union[float, int, str] = 0.0,
        max_cache_fd: int = 0,
        allow_multi_rates: bool = False,
    ):
        if len(path_name_type_list) == 0:
            raise ValueError(
                '1 or more elements are required for "path_name_type_list"'
            )

        path_name_type_list = copy.deepcopy(path_name_type_list)
        self.preprocess = preprocess

        self.float_dtype = float_dtype
        self.int_dtype = int_dtype
        self.max_cache_fd = max_cache_fd
        # allow audios to have different sampling rates
        self.allow_multi_rates = allow_multi_rates

        self.loader_dict = {}
        self.debug_info = {}
        for path, name, _type in path_name_type_list:
            if name in self.loader_dict:
                raise RuntimeError(f'"{name}" is duplicated for data-key')

            loader = self._build_loader(path, _type)
            self.loader_dict[name] = loader
            self.debug_info[name] = path, _type
            if len(self.loader_dict[name]) == 0:
                raise RuntimeError(f"{path} has no samples")

            # TODO(kamo): Should check consistency of each utt-keys?

        if isinstance(max_cache_size, str):
            max_cache_size = humanfriendly.parse_size(max_cache_size)
        self.max_cache_size = max_cache_size
        if max_cache_size > 0:
            self.cache = SizedDict(shared=True)
        else:
            self.cache = None

    def _build_loader(
        self, path: str, loader_type: str
    ) -> Mapping[str, Union[np.ndarray, torch.Tensor, str, numbers.Number]]:
        """Helper function to instantiate Loader.

        Args:
            path:  The file path
            loader_type:  loader_type. sound, npy, text_int, text_float, etc
        """
        for key, dic in DATA_TYPES.items():
            # e.g. loader_type="sound"
            # -> return DATA_TYPES["sound"]["func"](path)
            if re.match(key, loader_type):
                kwargs = {}
                for key2 in dic["kwargs"]:
                    if key2 == "loader_type":
                        kwargs["loader_type"] = loader_type
                    elif key2 == "float_dtype":
                        kwargs["float_dtype"] = self.float_dtype
                    elif key2 == "int_dtype":
                        kwargs["int_dtype"] = self.int_dtype
                    elif key2 == "max_cache_fd":
                        kwargs["max_cache_fd"] = self.max_cache_fd
                    elif key2 == "allow_multi_rates":
                        kwargs["allow_multi_rates"] = self.allow_multi_rates
                    else:
                        raise RuntimeError(f"Not implemented keyword argument: {key2}")

                func = dic["func"]
                try:
                    return func(path, **kwargs)
                except Exception:
                    if hasattr(func, "__name__"):
                        name = func.__name__
                    else:
                        name = str(func)
                    logging.error(f"An error happened with {name}({path})")
                    raise
        else:
            raise RuntimeError(f"Not supported: loader_type={loader_type}")

    def has_name(self, name) -> bool:
        return name in self.loader_dict

    def names(self) -> Tuple[str, ...]:
        return tuple(self.loader_dict)

    def __iter__(self):
        return iter(next(iter(self.loader_dict.values())))

    def __repr__(self):
        _mes = self.__class__.__name__
        _mes += "("
        for name, (path, _type) in self.debug_info.items():
            _mes += f'\n  {name}: {{"path": "{path}", "type": "{_type}"}}'
        _mes += f"\n  preprocess: {self.preprocess})"
        return _mes

    @typechecked
    def __getitem__(self, uid: Union[str, int]) -> Tuple[str, Dict[str, np.ndarray]]:

        # Change integer-id to string-id
        if isinstance(uid, int):
            d = next(iter(self.loader_dict.values()))
            uid = list(d)[uid]

        if self.cache is not None and uid in self.cache:
            data = self.cache[uid]
            return uid, data

        data = {}
        # 1. Load data from each loaders
        for name, loader in self.loader_dict.items():
            try:
                value = loader[uid]
                if isinstance(value, (list)):
                    value = np.array(value)
                if not isinstance(
                    value, (np.ndarray, torch.Tensor, str, numbers.Number, tuple)
                ):
                    raise TypeError(
                        (
                            "Must be ndarray, torch.Tensor, "
                            "str,  Number or tuple: {}".format(type(value))
                        )
                    )
            except Exception:
                path, _type = self.debug_info[name]
                logging.error(
                    f"Error happened with path={path}, type={_type}, id={uid}"
                )
                raise

            # torch.Tensor is converted to ndarray
            if isinstance(value, torch.Tensor):
                value = value.numpy()
            elif isinstance(value, numbers.Number):
                value = np.array([value])
            data[name] = value

        # 2. [Option] Apply preprocessing
        #   e.g. espnet2.train.preprocessor:CommonPreprocessor
        if self.preprocess is not None:
            data = self.preprocess(uid, data)

        # 3. Force data-precision
        for name in data:
            value = data[name]
            if not isinstance(value, np.ndarray):
                raise RuntimeError(
                    f"All values must be converted to np.ndarray object "
                    f'by preprocessing, but "{name}" is still {type(value)}.'
                )

            # Cast to desired type
            if value.dtype.kind == "f":
                value = value.astype(self.float_dtype)
            elif value.dtype.kind == "i":
                value = value.astype(self.int_dtype)
            else:
                raise NotImplementedError(f"Not supported dtype: {value.dtype}")
            data[name] = value

        if self.cache is not None and self.cache.size < self.max_cache_size:
            self.cache[uid] = data

        retval = uid, data
        return retval
